DE4229108A1 - DEVICE FOR VIRTUAL EXPANSION OF THE POWER SUPPLY CAPACITY - Google Patents

Description

The invention relates to power supply arrangements for a Audio system as used in a television receiver can.

TV receivers have loudspeakers in their housing, which permanently with the output stages (power output stages) of the Signal generators are connected. Some television receivers, specifically those with stereo sound and others with multi-channel Sound processing parts (sections) have facilities for Connect additional speakers to the receiver. A Multi-channel sound processing system is called "PROLOGIC" - Sound system became known. This system has four sound channels (left, middle, right and "surround") instead of just normal ones left and right stereo sound channels.

The additional channels can be doubled Cause total power that is "pulled" from the power supply, which delivers power to the audio systems. Out Economic considerations it is often desirable not double the power capacity in a power supply too realize two additional speakers (boxes) too allow that can be connected to the television receiver or not be connected. An increase in the Power capacity may require significantly larger components causes additional cost and weight and requires additional Space in the television receiver, there is also an increased Heat generation within the receiver chassis. In addition can then a problem with audio modulating the video display when the power from the horizontal flyback converter circuit (flyback circuit) is removed.

Accordingly, it is an object of the invention, essentially same audio output power of the receiver and that appropriate power supply, which the Audio circuits powered, regardless of whether additional Speakers are connected to the television receiver.  

This task is accomplished with the technical teaching of claim 1 solved; likewise are the technical teachings of claims 6 and 7 Solutions to the same task.

In a skeletal manner, the invention is described in that a virtual expansion of the performance Supply capacity of a power supply is created, for. B. a power supply for an audio system with a predetermined Number of channels that can be optionally increased. A Variety of amplifiers, each with a voltage adjustable Amplification, is coupled to and takes from the power supply Electricity. The current that is taken from the power supply is detected (measured) and the gains of the circuits are set to the total output of the power supply To maintain power at a predetermined level. If additional amplifiers are activated, the total Power drawn from the majority of amplifiers exceed the predetermined value which is set so that he performance for the original majority of amplifiers allowed. As a result, the amplification of all amplifiers reduced to the power drawn from the power supply to maintain the predetermined level. So the virtual one Power supply capacity of the power supply expanded (expanded) to operate the additional amplifiers.

The RCA Corporation of. CTC-130 television receiver chassis Indianapolis, Indiana, USA, is a power supply protection circuit used to customize the individual audio power amplifier protect if an unsuitable load, e.g. B. a short or similar, is connected to the output. Specifically, in the CTC-130 chassis a resistor between the power supply and the Power amplifier connected in series and a measuring circuit used to increase the current drawn by the resistor measure up. If the power drawn from the power supply exceeds a predetermined value, the Measuring circuit the control voltage on the electronic Volume preset connections of the respective  Power amplifier. As a result, the power supply drawn electricity is reduced and damage from the power Output stages averted.

The invention acc. Claim 1 is with the dependent claims 2 to 5 advantageously specified.

An embodiment is intended to help understand the invention deepen.

Fig. 1 shows a block diagram of an audio system - as an embodiment of the invention - with a power supply arrangement.

FIG. 2 is a schematic diagram showing details of the circuits for measurements, threshold values, smoothing, level conversion and for control according to the functional blocks of FIG. 1.

The circuit arrangement according to FIG. 1 uses a resistor which is connected in series to a power supply unit, which supplies power to a plurality of gain-controllable amplifiers which are provided in respective audio channels, at least some of which can be selectively activated. The voltage (drop) across the resistor, which indicates the current drawn from the power supply, is detected by a measuring circuit. When the current exceeds a predetermined threshold, the gain of each of the gain controllable amplifiers is reduced. Because of the reduced gain, the output level of each of the power amplifiers can drop, causing a corresponding drop in the current drawn from the power supply. The system will therefore keep the current drawn near the predetermined threshold, which is such that it can supply less than all of the majority of the amplifiers. In the exemplary design, the predetermined threshold is set to be slightly above the maximum current that is received by the basic two-channel stereo system. If additional channels are selected, e.g. For example, to create a "surround sound" effect, the system will reduce the overall power to approximately the same power that is consumed by the basic stereo system. Nevertheless, the overall volume can remain the same compared to the two basic stereo channels. The supply capacity is virtually expanded. A power supply unit that provides more power than is required for the two basic stereo channels becomes unnecessary.

Fig. 1 shows an audio system of a television receiver or a similar device in which signal amplifier circuits 10 L and 10 R are provided, which amplify left and right audio signals in left and right audio channels, which are present at respective inputs 12 L and 12 R. The left and right audio signals can be derived from a corresponding signal source, for example from a stereo transmission signal, from a stereo band signal, from a compact disc or the like. The amplifiers 10 L and 10 R are amplifier controllable amplifiers and include connections 14 L and 14 R. Output signals are output at the outputs 16 L and 16 R and coupled to respective power amplifiers 18 L and 18 R in order to provide amplified output signals via the connections 20 L and 20 R to deliver to respective speakers 22 . The power amplifiers 18 are supplied by a power supply unit 24 , which supplies the amplifiers 18 L and 18 R with a supply voltage B + power via the measuring resistor 28 .

The audio system also has two additional audio channels for providing the audio signals "center" and "surround" for additional surround sound in accordance with the PROLOGIC format of Dolby Laboratories. The "center" (c) and "surround" (s) channels can be selectively activated in response to a user-initiated control signal (select). The "center" and "surround" channels contain amplifier circuits 10 C and 10 S, which can be controlled in their amplification, power amplifiers 18 C and 18 S and loudspeakers 22 C and 22 S. The additional power amplifiers 18 C and 18 S are also supplied by the power supply 24 and then, when the amplifiers are activated, the additional current is detected as part of the total voltage via the resistor 28 . The voltage drop across resistor 28 is proportional to the average current through resistor 28 , which is representative of the power output of amplifiers 18 L, 18 R, 18 C, and 18 S. The voltage across sense resistor 28 is amplified with amplifier 30 when the voltage exceeds a threshold. The value of resistor 28 and the amount of amplification, as well as the threshold value of amplifier 30, are set so that a gain-reducing control signal is generated at a current through resistor 28 , which indicates a current level that is slightly above the full power supply of the power supply 24 for the amplifiers 18 L and 18 R of the two basic stereo channels (left and right). The output of the threshold amplifier 30 is filtered and its level shifted in a circuit area 32 and the resultant signal is fed to a summing point 36 via the diode 34 . At summing point 36 , the output signals of the filter and level conversion section 32 are summed up with the user volume specification which is present at connection 38 . The resulting gain control voltage is applied to gain control terminals 14 L, 14 R, 14 C and 14 S of the respective amplifiers 10 L, 10 R, 10 C and 10 S to amplify amplifiers 10 L, 10 R, 10 C and To reduce 10 S so that the total audio output power of the amplifiers 18 L, 18 R, 18 C and 18 S remains within the output power level of the amplifiers 18 L and 18 R alone. In other words, the system will not change the volume until a "loud" input signal occurs or a user increases the volume level significantly. The sensed current in resistor 28 is reduced to bring the voltage generated across sense resistor 28 back to approximately the amplifier 30 threshold. This allows the system to keep the current flow from the power supply close to the threshold. Thus, the circuit detects the current drawn by amplifiers 18 L, 18 R, 18 C and 18 S that is above the current drawn by amplifiers 18 L and 18 R alone and reduces the power output to all channels to the power , which corresponds to the standard capacity of the power supply for the 18 L and 18 R amplifiers alone. This increases the apparent (virtual) power supply capacity of the power supply.

Fig. 2 is a preferred example of the Steuerschleifen- shows components (usually components) 30, 32, 34 and 36.

Resistor 28 and capacitor 40 form a typical power supply filter for decoupling between components that are powered by a common source (power supply). The voltage generated across resistor 28 is an indication of the average current flowing to amplifiers 18 L, 18 R, 18 C, and 18 S. Resistors 42 and 44 form a voltage divider that divides the voltage across resistor 28 and supplies it to the base of transistor 46 . An output signal from amplifier transistor 46 is formed across resistor 48 when the base-emitter junction of transistor 56 is forward biased. The values of resistors 42 and 44 are selected based on resistor 28 to establish the conductivity threshold of transistor 46 . Specifically, transistor 46 is biased to turn on when the voltage across resistor 42 is approximately 0.65 V and the maximum nominal power is provided by power supply 24 .

The output signal of transistor 46 through resistor 48 is filtered, level-shifted and inverted by the Miller integrator, which has a transistor 50 , resistors 52 and 56 and a capacitor 54 . Resistor 52 and capacitor 54 form the time constant of the system. This time constant has two functions:

• 1. It slows down the system response to the annoying "pumping" the system gain in response to signal changes prevent;  
• 2. It provides for a dominance pole compensation to one To avoid vibration of the system due to the complex and varied answer of the Audio system can arise.

The output voltage, which arises at the collector of transistor 52 via resistor 56 , is via the isolation diode 34 to the gain control inputs 14 L, 14 R, 14 C and 14 S of the amplifiers 10 L, 10 R, 10 which are controllable in their amplification C and 10 S coupled. If the detected voltage across resistor 28 is below the threshold, the collector of transistor 50 will go to "high" potential, diode 34 will be reverse biased and the coupling to control inputs 14 L, 14 R, 14 C and 14 S will not exist more. In this mode of operation, the only control of the amplification that remains is the volume control signal specified by a user on line 38 . If the voltage across resistor 28 is above the threshold, the voltage on collector 50 will go to "low" potential, enough to bias diode 34 forward and provide a gain (reduction) control signal to gain control inputs 14 L, 14 R, 14 C and 14 S lead. The extent of the control (intervention) depends on how high the user has turned up the volume and how loud the input signals are. Typically, the inputs 14 L, 14 R, 14 C and 14 S can be pulled down to one or two volts. The voltage controlled amplifiers 10 L, 10 R, 10 C and 10 S can be provided in pairs of integrated circuits that control sound / volume / balance; such is the LM1035, which is available from NS. With the LM1035 IC, the maximum volume is generated at around 5 V, whereas the minimum volume is generated at around 0.5 V.

Claims (8)

1. Device which has:

• - a first number of circuits ( 18 L, 18 R);
• - a second number of circuits ( 18 C, 18 S);
• - Power supply means (supply device, 24 ) for supplying the first number of circuits ( 18 L, 18 R) at / with the first power output level;
• - Means (SELECT) for selectively releasing the supply device ( 24 ) in order to supply the second number of circuits ( 18 C, 18 S);
• - means ( 28 ) for sensing the power drawn from the supply means ( 24 ) by the first and second number of circuits; marked by
• - Means ( 30 , 32 , 34 , 36 , 14 L, 14 R, 14 C, 14 S, 10 L, 10 R, 10 C, 10 S) for lowering the total power output by the supply device ( 24 ) depending on the detected (measured) extraction power when the power drawn from the first and second number of circuits ( 18 L, 18 R, 18 C, 18 S) is the first power output level of the first number of circuits ( 18 L, 18 R ) exceeds.

2. Apparatus according to claim 1, characterized in that at least some of the first number of circuits ( 18 L, 18 R) have an adjustable gain and the total power which is taken from the supply device ( 24 ) by lowering the gain of at least some of the first number of circuits ( 18 L, 18 R) is reduced. 3. Apparatus according to claim 1 or 2, characterized in that at least some of the second number of circuits ( 18 C, 18 S) have an adjustable gain and the power taken from the supply device ( 24 ) by lowering the gain of at least some of the second number of circuits ( 18 C, 18 S) is reduced. 4. Device according to one of the preceding claims, characterized in that the first number of circuits ( 18 L, 18 R) two audio channels of a stereo sound system and the second number of circuits are additional audio channels (listening channels). 5. Apparatus according to claim 4, characterized in that the additional number of audio channels ( 12 C, 12 S) together with the two audio channels ( 12 L, 12 R) of the stereo sound system form an all-round sound system (surround sound system). 6. Device - in particular according to one of the preceding claims -

• - With a plurality of amplifiers with variable gain ( 10 L, 18 L, 10 R, 18 R) and at least one additional amplifier-controllable amplifier ( 10 C, 18 C, 10 S, 18 S), which is selectively released for operation;
• - With a voltage supply ( 24 ) for supplying all amplifiers ( 10 L, 18 L, 10 R, 18 R, 10 C, 18 C, 10 S, 18 S),

characterized in that the gain of all amplifiers ( 28 , 30 , 32 , 34 , 36 , 14 L, 14 R, 14 C, 14 S) is reduced depending on the power drawn from the voltage supply ( 24 ), so that the power drawn from it ( 24 ) does not exceed the power drawn by a majority of the amplifiers ( 10 L, 18 L, 10 R, 18 R) - with the exception of the selectable amplifiers. 7. Device - in particular according to one of the preceding claims -

• - With a first gain-controllable amplifier ( 10 L, 18 L, 10 R, 18 R) and at least one second gain-controllable gain ( 10 C, 18 C, 10 S, 18 S), which is selectively released for operation;
• - With a supply ( 24 ) for supplying all amplifiers ( 10 L, 18 L, 10 R, 18 R, 10 C, 18 C, 10 S, 18 S) and
• - With gain control means ( 28 , 30 , 32 , 34 , 36 , 14 L, 14 R, 14 C, 14 S) for detecting the power drawn from the supply and for reducing the gain of all amplifiers, so that the power drawn from the supply does not exceed the maximum power that the first amplifier ( 10 L, 18 L, 10 R, 18 R) draws.